Intelligent refrigerating garment

ABSTRACT

The present disclosure provides an intelligent refrigerating garment. The intelligent refrigerating garment includes a garment body and a water circulation refrigerating device. Water storage layers are disposed on an inner side of the garment body. A water outlet of the water circulation refrigerating device is communicated with a water inlet of the water storage layers. A water inlet of the water circulation refrigerating device is communicated with a water outlet of the water storage layers.

TECHNICAL FIELD

The present disclosure relates to a field of clothing technology, and in particular to an intelligent refrigerating garment.

BACKGROUND

With rapid development of information technology, people are experiencing great convenience and benefits brought by high technology, and products based on the high technology gradually change people's living habits and lifestyles.

Conventional wearable smart devices only collect user's environmental data and physical health data to perform data reminders or status warnings. Such wearable smart devices have minimal impact on the users' living habits or lifestyles and do not bring convenience to the users.

With continuous improvement of people's living standards, a demand for improving the quality of life is also increasing. It is necessary to have an intelligent refrigerating garment, which make the users feel cool in an environment without an air conditioner.

SUMMARY

Based on above problems, the present disclosure provides an intelligent refrigerating garment that makes users feel cool in an environment without an air conditioner.

In order to achieve the above purpose, the present disclosure provides the intelligent refrigerating garment. The intelligent refrigerating garment includes a garment body and a water circulation refrigerating device. Water storage layers are disposed on an inner side of the garment body. A water outlet of the water circulation refrigerating device is communicated with a water inlet of the water storage layers. A water inlet of the water circulation refrigerating device is communicated with a water outlet of the water storage layers.

Optionally, the water storage layers are communicated with each other in series to form a series water path through first hoses. Two ends of the series water path are respectively communicated with the water outlet of the water circulation refrigerating device and the water inlet of the water circulation refrigerating device.

Optionally, the water outlet of the water circulation refrigerating device is communicated with the water inlet of the water storage layers through a second hose. The water inlet of the water circulation refrigerating device is communicated with the water outlet of the water storage layers through a third hose,

Optionally, each water storage layer is formed by hot-pressing on two layers of silica gel. A plurality of blocks arranged in arrays are formed by the hot-pressing on the two layers of silica gel. And a water storage channel is formed on a periphery of each block.

Optionally, the water storage layers are adhered and fixed on an inner side surface of the garment body by sewing.

Optionally, the water circulation refrigerating device is placed in a handbag.

Optionally, the water circulation refrigerating device includes a bag body, a control panel, a battery, a temperature sensor, a refrigerating device, and a miniature water pump. The water inlet of the water circulation refrigerating device is disposed on the bag body. The water inlet of the water circulation refrigerating device disposed on the bag body is communicated with the water outlet of the water storage layers. The battery and the temperature sensor are communicated with the control panel. The temperature sensor is disposed inside the bag body. The refrigerating device is disposed inside the bag body and is communicated with the control panel. The water inlet of the miniature water pump is communicated with the bag body. And the water outlet of the water circulation refrigerating device is disposed on the miniature water pump. The water outlet of the water circulation refrigerating device disposed on the miniature water pump is communicated with the water inlet of the water storage layers. The miniature water pump is communicated with the control panel.

The present disclosure is provided with the water storage layer and the water circulation refrigerating device. The water circulation refrigerating device is configured to cool water and promote a water circulation. Water flows through the water storage layer absorbs heat on a human body, which makes the user feel extremely cool. Thus, the user feels cool in the environment without the air conditioner.

In order to explain structural features and effects of the present disclosure more clearly, the present disclosure will be described in detail below with reference to drawings and specific embodiments:

BRIEF DESCRIPTION OF DRAWINGS

The FIGURE is a schematic diagram showing an embodiment of the present disclosure where an intelligent refrigerating garment is open.

DRAWING DESCRIPTION

-   -   10—garment body;     -   11—zipper;     -   20—water storage layers;     -   21—blocks;     -   22—water storage channel;     -   30—water circulation refrigerating device;     -   31—bag body;     -   32—control panel;     -   33—battery;     -   34—temperature sensor,     -   35—refrigerating device;     -   36—miniature water pump;     -   41—first hoses     -   42—second hose;     -   43—third hose; and     -   50—handbag.

DETAILED DESCRIPTION

As shown in the FIGURE, which shows a specific structure of one embodiment of the present disclosure, an intelligent refrigerating garment includes a garment body 10 and a water circulation refrigerating device.

The garment body 10 is a vest, and a zipper 11 is disposed on the garment body 10.

Water storage layers 20 are disposed on an inner side of the garment body 10. A water outlet of the water circulation refrigerating device 30 is communicated with a water inlet of the water storage layers 20. A water inlet of the water circulation refrigerating device 30 is communicated with a water outlet of the water storage layers 20.

In the embodiment, the water storage layers 20 are communicated with each other in series to form a series water path through first hoses 41. Two ends of the series water path are respectively communicated with the water outlet of the water circulation refrigerating device 30 and the water inlet of the water circulation refrigerating device 30. And the water outlet of the water circulation refrigerating device 30 is communicated with the water inlet of the water storage layers 20 through a second hose 42. The water inlet of the water circulation refrigerating device 30 is communicated with the water outlet of the water storage layers 20 through a third hose 43. Furthermore, each water storage layer 20 is made of two layers of silica gel, to be specific, each water storage layer 20 is formed by hot-pressing of two layers of silica gel. A plurality of blocks 21 arranged in arrays are formed in each water storage layer 20, to be specific, the plurality of blocks 21 are formed by the hot-pressing of the two layers of silica gel, and a water storage channel 22 is formed on a periphery of each block 21. In addition, the water storage layers 20 are adhered and fixed on an inner side surface of the garment body 10 by sewing.

In the embodiment, a number of the water storage layers 20 is three. The water storage layers 20 are respectively arranged on two sides and a center of the garment body 10. Thus, when the user puts on the garment body 10, the water storage layers fits back and chest of the human body, which increases a contact area with the human body. Therefore, the intelligent refrigerating garment brings a better cooling effect to the user.

In the embodiment, an area of the water storage layer 20 is sufficiently large, if the blocks 21 are not provided, when the water is injected into the water storage layers, weight of the garment body 10 is relatively large, which bring a weight burden to the user. Thus, the plurality of blocks 21 arranged in arrays are formed by the hot-pressing of the two layers of silica gel, and the water storage channel 22 is formed on the periphery of each block 21. The blocks 21 not only make a structure of the water storage layers 20 more stable, but also limit an amount of water stored in the water storage layers 20, which make the intelligent refrigerating garment more comfortable to wear. Further, the water storage channel 22 of each block 21 is communicated with each other. Each water storage channel 22 guarantees the contact area and cooling effect of the intelligent refrigerating garment to the human body. Therefore, the weight of the intelligent refrigerating garment is moderate, which brings good cooling effect to the user without burdening the user.

Furthermore, the water circulation refrigerating device 30 includes a bag body 31, a control panel 32, a battery 33, a temperature sensor 34, a refrigerating device 35, and a miniature water pump 36. The water inlet of the water circulation refrigerating device 30 is disposed on the bag body 31. The water inlet of the water circulation refrigerating device 30 disposed on the bag body 31 is communicated with the water outlet of the water storage layers 20. The battery 33 and the temperature sensor 34 are communicated with the control panel 32. The temperature sensor 34 is disposed inside the bag body 31. The refrigerating device 35 is disposed inside the bag body 10 and is communicated with the control panel 32. The water inlet of the miniature water pump 36 is communicated with the bag body 10, and the water outlet of the water circulation refrigerating device 30 is disposed on the miniature water pump 36. The water outlet of the water circulation refrigerating device 30 disposed on the miniature water pump 36 is communicated with the water inlet of the water storage layers 20. The miniature water pump 36 is communicated with the control panel 32. Furthermore, the water circulation refrigerating device 30 is placed in a handbag 50 or other carrier.

A working principle of the present disclosure is as follows.

During use, a certain amount of water is stored in the water storage layers 20 and the bag body 31. When the user puts on the garment body 10, the water storage layer 20 fits the human body. When the user feels hot, the water circulation refrigerating device 30 can be turned on, and the battery 33 supplies power to the control panel 32, so that the refrigerating device 35 and the miniature water pump 36 are turned on at the same time. The refrigerating device 35 cools the water in the bag body 31, so that a temperature of the water in the bag body 31 is reduced. The miniature water pump 36 circulates water between the water storage layers 20 and the bag body 31. When the low temperature water is transported to the water storage layers 20, it absorbs heat of the human body to make the user feel cool. After absorbing the heat in the water storage layers 20, the water returns to the bag body 31 to cool down. When the temperature sensor 34 senses that temperature of the water in the bag body 31 drops to a predetermined temperature, the control panel 32 controls the refrigerating device 35 and the miniature water pump 36 to stop at the same time. And when the temperature sensor 34 senses that the water in the bag body 31 has risen to another predetermined temperature, the control panel 32 controls the refrigerating device 35 and the miniature water pump 36 to turn on again.

The present disclosure is provided with the water storage layers 20 and the water circulation refrigerating device 30. The water circulation refrigerating device 30 is configured to cool water and promote water circulation. Water flows through the water storage layers 20 absorbs the heat of the human body, which makes the user feel extremely cool. Thus, the users feel cool in the environment without an air conditioner.

Technical principles of the present disclosure have been described above with reference to specific embodiments. These descriptions are only for explaining the principles of the present disclosure, and are not interpreted in any way as limiting the scope of protection of the present disclosure. Based on the explanation here, those skilled in the art can carry out other specific embodiments of the present disclosure without creative work, and these embodiments are within the protection scope of the present disclosure. 

What is claimed is:
 1. An intelligent refrigerating garment comprising a garment body and a water circulation refrigerating device; wherein water storage layers are disposed on an inner side of the garment body; a water outlet of the water circulation refrigerating device is communicated with a water inlet of the water storage layers; a water inlet of the water circulation refrigerating device is communicated with a water outlet of the water storage layers.
 2. The intelligent refrigerating garment according to claim 1, wherein the water storage layers are communicated with each other in series to form a series water path through first hoses; two ends of the series water path are respectively communicated with the water outlet of the water circulation refrigerating device and the water inlet of the water circulation refrigerating device.
 3. The intelligent refrigerating garment according to claim 1, wherein the water outlet of the water circulation refrigerating device is communicated with the water inlet of the water storage layers through a second hose; the water inlet of the water circulation refrigerating device is communicated with the water outlet of the water storage layers through a third hose,
 4. The intelligent refrigerating garment according to claim 1, wherein each water storage layer is made of two layers of silica gel; a plurality of blocks arranged in arrays are formed in each water storage layer; and a water storage channel is formed on a periphery of each block.
 5. The intelligent refrigerating garment according to claim 1, wherein the water storage layers are adhered and fixed on an inner side surface of the garment body by sewing.
 6. The intelligent refrigerating garment according to claim 1, wherein the water circulation refrigerating device is placed in a handbag.
 7. The intelligent refrigerating garment according to claim 1, wherein the water circulation refrigerating device comprises a bag body, a control panel, a battery, a temperature sensor, a refrigerating device, and a miniature water pump; the water inlet of the water circulation refrigerating device is disposed on the bag body; the water inlet of the water circulation refrigerating device disposed on the bag body is communicated with the water outlet of the water storage layers; the battery and the temperature sensor are communicated with the control panel; the temperature sensor is disposed inside the bag body; the refrigerating device is disposed inside the bag body and is communicated with the control panel; the water inlet of the miniature water pump is communicated with the bag body; and the water outlet of the water circulation refrigerating device is disposed on the miniature water pump; the water outlet of the water circulation refrigerating device disposed on the miniature water pump is communicated with the water inlet of the water storage layers; the miniature water pump is communicated with the control panel. 